Candy making equipment



Oct. 7, 1952 RF. MORRISON CANDY MAKING EQUIPMENT l3 Sheets-Sheet 1 Filed April 7, 1947 GNN J 13 Sheets-Sheet 2 R. F. MORRISON CANDY MAKING EQUIPMENT Oct. 7, 1952 Filed April 7, 1947 4E W U W Z: W Z2 W 5 f H ya a i Q U Get. 7, 1952 R. F. M ORRISON CANDY MAKING EQUIPMENT 13 Sheets-Sheet 3 Filed April '7, 1947 Oct. 7, 1952 R. F. MORRISON 2,512,851

CANDY MAKING EQUIPMENT Filed April 7, 1947 13 Sheets-Sheet 4 3 05671 1? ffa 77- won Oct. 7, 1952 R. F. MORRISON CANDY MAKING EQUIPMENT Filed April 7, 1947 13 Sheets-Sheet 5 72 227".- .50567 fmrrzlson R. F. MORRISON CANDY MAKING EQUIPMENT Oct. 7, 1952 1:5 Shets-Sheet 6 Filed April 7, 1947 llll fnveni or'" 7, 1952 R. F. MORRISON 2,612,851

CANDY MAKING EQUIPMENT Filed April 7, 1947 15 Sheets-Sheet '7 J96 J97 VJ Oct. 7, 1952 R. F. MORRISON 2,612,851

CANDY MAKING EQUIPMENT Filed April '7, 1947 I 13 sheets-sh'et's 107; I F15 g9 fill/6:712 37 05677? F 1757"?"255072.

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Oct. 7, 1952 R. F. MORRISON CANDY MAKING EQUIPMENT l3 Sheets-Sheet 9 Filed A ril 7, 1947 Oct. 7, 1952 R. MORRISON 2,612,851

CANDY MAKING EQUIPMENT 7 Filed April 7, 1947 x 15 Sheets-Sheet 1O 22 fizunxfof" F0567? Fffarrisoza Oct. 7, 1952 R. F. MORRiN 2,612,851

CANDY MAKING EQUIPMENT Q 7, 5 Q R. F. MORRISON 2,612,351

CANDY MAKING EQUIPMENT Filed April 7. 1947 1s Sheets-Shet 12 377 3a.; 3&4 3,14 4

1 50567 1 fjforfrzls'ari b 1952 R. F. MORRISON 2,612,851

CANDY MAKING EQUIPMENT Filed April 7, 1947 15 Sheets-Sheet 15 Patented Oct. 7. 1952 CANDY MAKING'EQUIPMENT Robert. F. Morrison, Oak Rark,.Ill., assignor to "Mars; Incorporated, Chicago, vIll.,' acorporation of Delaware Application April-7, 1947, Serial No. 739,869

The present invention isconcerned with the manufacture of candy bars and relates primarily :to-"the spreading of a dough-like mixture of nougat into a sheet of uniform width and thickness. The invention contemplates that the dough is first prepared and thoroughly mixed and whipped in one 01"!!1018 batch mixes or the like,=and is then dumped into-a hopper that includes-a pair of spaced spreaderrrollers and rotating end discs that have chilled surfaces coming in contactwith the candy dough. The candy -when first dumped into: the hopper is relatively 'hot and is soft and sticky but upon coming in contact with the chilled rollers a slightly hard- -enedsurface or skin is formed on those portions with the distance between the rollers. This candy-is deposited 'upona moving belt conveyor and is conveyed away from the spreader rollers at a rate-of speedicorresponding tot-he speed at which the dough is discharged: from the: rollers.

' It is important that this 7 resulting sheet of nougatbe of uniform thickness throughout: its length and width. The hardened surface or skin formed by'the'chilled rollers .on the sheet :of nougat-is disposed on thetopghottoni andside faces of the sheet thus deposited .upon the conveyor. The conveyor. moves thernougat, sheet through various stations where operationszare performed resulting ultimately in:a finished .candy bar. 1

" The products thus manufactured are chocolate coated candy "bars of uniform size containing a nougat center and perhaps other layers of .caramel and nuts variously arranged.

The nougat comprises a cooked mixture ineluding sugar, corn syrup,-egg whites, vegetable oil, salt, -water,- malted milk and cocoa that are whipped and cooked until the proper consistency is obtained. The nougat pcrtiono'f the resulting candy bars is filledwith-*amultitude of air cells resulting from the whipping operation so as to preserve the light consistency of the nougat.

The foregoing constitutesome of the principal objects. and advantages of the present invention,

others of "which will become .:apparent' from the following description and. the drawings; in which Fig. 1 is a perspective VlWlJShOWing a typical candy bar, with a portion of theuchocolate coating removed, that can be made ase. result-of the method disclosed hereinafter;

' 7 Claims. (Orin-12) Fig. 2 is a more or less schematic view illustrating the various stages through which the candypasses when manufactured in accordance with the present method;

Fig. 3 is a diagrammatic view of the-candy making machinery used in carrying out the present method; U I

Fig. 4 is a plan view of the equipment shown in Fig. 3; V 1

Fig. 5. is a more or less schematicside view of the candy illustrating the progress of the candy manufactured'under the present method from-the'point where the dough is first spread out onto the conveyor until it is separatedinto ribbons and the ribbons separated and cut into bar lengths;

Fig. 6 is an enlarged side 'elevational view of the dough spreading equipment;

Fig. 7 is a top plan viewof the equipment shown i-n-Fig. 6;

Fig; 8 is'an enlarged fragmentary longitudinal sectional view through the spreading equipment shown in Figs; 6 and '7. a'portionof the view heingillustra'ted'in side elevation, the view being ,takenon the line 8- 8 of Fig. '7;

Fig,"9 is an enlarged, fragmentary transverse sectional view through the spreader roller assembly, the view being taken onthe line '9-9 ofIFig. '1 andiheing shown partly in elevation;

. Fig. 101 is an enlarged, fragmentary. longitudinal sectional view taken through one roller suchas l22.,and its associated shaft assembly;

Fig. ,11 isj'anenlarged detail view, shown partly. in. section. of the pressure joint illustrated in ,Fig. 10;. I

1 ,Fig. 12 is .anenlarged end View of one of the discs ll5, -a.-portion of the discfbeing broken away and shown insection;

Fig. 13 .is anenlargedvertical transverse sectional view taken through one of the discs H5 and through itsyassociatedbearing and shaft;

Fig. .14 is an enlarged fragmentary side elevational view of'the stripper-mechanism that op- :erates against r=oller- .122; i

Fig, 15 is aside elevational 'view of one end only of the *conveyor 10'! illustrated diagram- :matically in Fig. 2;; g l

Fig lfiisx-a plan view of the. portion of the conveyor illustrated in Fig; I5 with nougat shown on: the conveyor; 1 i a r Fig. :17 is an enlarged vertical sectional view taken through a portion onlyof theconveyor, the view being taken on the line l1|'l of Fig. 15;

' Fig. 18 is a side elevational view-corresponding 3 to Fig. but illustrating the opposite end of the conveyor;

Fig. 19 is a plan view of the portion of the conveyor shown in Fig. 18;

Fig. 20 is an enlarged vertical sectional view illustrating one of the oil jet assemblies employed to spray the conveyor belt;

Fig. 21 is a transverse sectional view through the conveyor, the view being taken on the line 2I2I of Fig. 18;

Fig. 22 is a transverse sectional view corresponding to Fig. 21, the view being taken on the line 2222 of Fig. 19;

Fig. 23 is a more or less diagrammatic perspective view of the belt washing equipment employed in connection with the conveyor belt and the side belts;

Fig. 24 is a vertical longitudinal sectional view through the washing chamber or housing through which the conveyor belt passes, the conveyor belt being shown in elevation; I

Fig. 25 is an enlarged horizontal sectional view taken through one of the side belt washing hous- I ings, the view being taken on the line 25-45 of Fig. 18; and

Fig. 26 is a schematic view showing the control and operating electric circuits for the spreader and conveyor. I

For purposes of illustration one embodiment of the present invention will be described, it being recognized however that many modifications may be made in the specifically illustrated form of, the invention without departing from the intended scope of the invention.

Certain subject matter contained herein also appears in my copending application, Serial No. 768,025, filed August 11, 1947.

GENERAL ORGANIZATION For purposes of illustration the present invention will be described in connection with the preparation of a bar of candy of the type disclosed in Fig. 1. Such a bar comprises a layer of nougat I00 on top of which is disposed a layer of caramel IOI having a layer of nuts I02 thereon, which in turn are covered by a second layer of caramel I03. The entire bar is coated or enrobed with chocolate I04.

Referring to Fig. 2 bars of this type are manu factured continuously by a series of steps that are performed at various stations including stations A to E inclusive indicated in Fig. 2.

The method and equipment described herein can be used to make candy bars comprising a wide variation of ingredients put together in accordance with many different formulae, such for example as caramel, toffee, marshmallow and nougat, or a combination of these materials. Specifically speaking, the nougat is a batter-like mix made of aerated egg whites and a syrup of sugar, salt, water and corn syrup; and after thoroughly beating this mix to provide additional aeration,

vegetable oil, malted milk and cocoa are added and all are thoroughly mixed together. This nougat mix or dough is introduced through a spreader device generally indicated at I06. The operation of spreading this nougat onto a conveyor I01 is accomplished at station A and the nougat thus spread takes the form of a relatively wide sheet I08 of nougat that is of a predetermined uniform thickness throughout its entire area. The conveyor I01 moves this sheet I08 of nougat in the direction indicated by the arrow in Fig. 2.

At station B the two layers IOI and I03 (see Fig. 1) of caramel with the layer of nuts I02 held therebetween are laid on top of the sheet of nougat I08 by means of a caramel and nut dispenser generally indicated at I09 (see Figs. 2 to 5 incl). The moving conveyor I0'I thereafter carries combined layers of nougat, caramel and nuts I00 to I03 inclusive, into a plurality of slitting knives generally indicated at IIO where at station C, the combined sheet III of nougat, caramel and nuts are slit lengthwise into ribbonlike strips of candy II 2a and IIZb, which are separated as shown in Fig. 2 into upper and lower strips.

As best shown in Fig. 2 the odd numbered strips, as for example, the first, third and fifth, etc, strips reading from right to left on the drawing are caused to travel downwardly and are identified as strips I I2?) whereas the even numbered strips,

namely, 2, 4, and 6, etc., are caused to travel upwardly to an upper elevation and are identified as strips IIZa. This vertical separation of the strips is brought about so as to space the candy a sufficient distance apart to prevent the strips from sticking together again after they have passed the cutting discs. The cutting discs do not remove any candy but merely slit and displace the candy in the separating operation. The strips are then cut into bar lengths, which operation is accomplished by means of a slicing machine generally indicated at I I3 at station D. The bars thus cut are illustrated at I Ma and I I4b in Fig. 2, the former being disposed at the upper elevation and the latter bars are disposed at the lower elevation. These spaced and cut bars [Ma and H41) are then returned to a common plane by means of a bar spacer generally indicated at H5 at station E. The bar spacer not only returns the bars II 4a and II4b to a common plane but also spaces these bars so that they are deposited in the common plane with adjacent bars disposed at the proper distance apart for the chocolate enrobing operation to be performed. The bars leaving the bar spacer II5 are deposited upon a conveyor I I6 that causes the bars deposited thereon to travel at a slightly greater speed than the speed of the bars onthe bar spacer II5 so as to efiect endwise spacing between adjacent bars. The conveyor II 6 then moves the bars to a choco late coating or enrobing machine indicated at I I! in Fig. 3 from which the bars are conveyed through a suitable cooling chamber I I8 and finally onto the bar wrapping equipment (not shown).

The nougat dough that is introduced onto the conveyor I 01 at station A is necessarily warm and relatively soft so that the sheet I08 of nougat passing from station A to station B travels into a cooling chamber II9 (see Fig. 3) that chills and hardens to a certain extent the nougat preparatory to depositing the caramel and nut spread thereon at station B. Likewise the caramel and nut layer deposited at station B is warm and relatively soft and therefore the candy leaving station B is caused to travel through a cooling chamber I20 before the candy is brought to the slitters at station C.

STATION A Spreader equipment Referring to Fig. 3 the batch mixer I05 discharges its contents through a chute I2I into the spreader device generally indicated at I06.

The spreader device I06 is best shown in Figs. 6 to 14 inclusive and comprises generally a pair of rollers I22 and I23 that are mounted on spaced side walls I24, which in turn are susover the free end of thestudgshaiitg I465,

' changes:

pended from overhead beams, one of. WhlfihsiS indicated at I-in Fig. 6 by means of ,rivets or bolts I26. "The spacedwalls I24. form two sides of a rectangular frame, the othertwo sides being made up of framing members including ananglebeam I21 (Fig.8) -and:beam-.5I28.; .The roller I23 is mounted on a shaft I29 thati's supported by means of bearings I39 directly-on the spaced walls i-I24, the bearings I301. beingbolted as at ..I3I. (Fig. 8) to an angle" bracket I32. These angle brackets-may =be spot/welded: Ior otherwise secured to thewalls' l24z Vs The roller I22 is likewise mounted on a shaft I33 that is journalled in bearings-.LI34 (Fig.6) at the opposite ends of the shaft, each bearing I34 being secured to .anangle-bracket I'35n-by means of bolts I36. Eachof the angle brackets I35. is spot welded or otherwise secured. to a swinging .arm I31 (Figs; '1 and 8), there being two of these arms spaced apart with oneadjacent. to each ofthe spaced walls I24. 1 Each of the arms I31 is I pivotally secured to the wall I24-by means of a pin I38 and-the armsv I31 are connected by a framing member. I.39:'.(see Fig. 8) and a spacer bar .240.-I(see Fig. 9).; g

As best .shown in Fig. 10 each of the rollers I22 and I23 comprises a'hollow drum I40. closed by end walls 141. The shaft I33 =(or .I.=29"in case of roller I23) passes throughout. the' length of the drum I46 and is provided with anaxial-passage I42 at each end thereofthat extends from the free endof the shaft to a position just inside the adjacent end wall I-4I, at which lat- "ter position, a plurality of radial passages I43 extend to the peripheral surface of the shaft.

Since the rollers I22 and I23 are identical, roller I22 only is shown and described-herein; lVIounted on the shaft I33 within the drum I 49 is an internally closed drum I44. Between the walls of the drum I44 and the walls of the roller I22 is a passage I45 that extendsthr-oughout'the length of the roller I22 and'is situated closely adjacent to the outer walls of the rol1er I22.

Referring to Figs. '7 and 10 a hollow studshaft or pip-e I46 is threaded into each end of the shaft 133 and projects into a rotary-pressure ij'oint I41. A cooling water supply'pipe I48'is connected to couplings I41 at one side ofnthe roller I22 and is adapted to introducew-ater'or like. coolant through the pressure joint .I41. at one side of the roller l22 (or I23), throughithe hollow stud shaft I46, passages Inland-a143, into the :passage I45 in the. roller I22 '(or I23). water circulates through the passage "I45 to the opposite end of the roller where-it leaves through the passages in a corresponding shaft I33, pressure joint I41 and finally is discharged through an outlet pipe I49. .As previouslyamen- ,tioned the roller I23 is identically provid-edwith passages so that water or othercoolant maybe circulated in the same manner through this roller I 23.

The pressure joint-"I41 comprisesya housing 150 -(Fig. .11) provided .with an end closurewall ;I5I .bo1ted to the housing as at- I52. The, opposite;- end of thehousin I52 is provided with an aperture I53 through-which thestudshaftMB projects. The inner free end of theistudrshaft I46 is provided with, an annular; shoulder portion I54 that serves as one seat for,:-a-.c0mpres-.

sion spring I55. A. ring, member I56 is disposed dais provided with-,a complementary shoulder portion I51 that serves as the 10ther3seat-.o -.=-t-he compression spring .I55but ring I 56is slid able v longitudinally along the shaft I46. The shoulder portion, I54 of the stud shaft I46 is provided with an arcuate bearing surface I58 that rests against a seal ring I59 that is disposed between "the bearing surface I58 and the adjacent end wall of the housing I56. Similarly the shoulder portion I51 of the ring member I-5'6; is provided. with an arcuate bearing surfaceulfifl that rests against a seal ring I6I that is dis.- posed between the bearing surface I60 and the removable end cap I5I. The compression sprin I at all times exercises force against the shoulder portions I54 and I51 so as to maintain aconstant pressure of the bearing surfaces I58 and I against the corresponding sealing rings I59 and I6I. Thus the stud shaft I46 is adaptedto rotate in the housing I56, the bearing surfaces I58 and 'I 60 sliding over the correspond ing surfaces of the seal rings I59 and I6I.. These seal rings I59 and I6! prevent leakage of water from the housing I50.

Referring to Figs. '1 and '8 the roller. I252 is adapted to move away from or toward the roller I23. This is made possible because the roller I22 is mounted upon the swinging arms I31 as preyiously described. The swinging arms -I 31 are oneratively connected by means of a link I62 to, an air cylinder I63, the latter of which is supported on the beamwl28. A piston I64, operatesinthe air cylinder I63 and is carried on the freeend of a'piston rod I65, the. latter of which is secured; to the link I62. The air cylinder I63 has pipes I66 and I61 leading therefrom, the. pipes being disposed on opposite sides of the piston I64. The beam I28 has an inwardly extending ledge I66 that carries thereon a plurality of ad- :justable stops I69 that are adapted to engage the framing member I39 that is integral with the swinging arms I31. Thusbyconveyi-ng compressed air through pipe I61 into the air cylinder I63 the piston 464 is moved to the leftsoas to swing the arms I31 about their pivot points I38 in a clockwise direction until this movement is limited by the stops I69. This position of the arms I 311s maintained by the air pressure in the cylinder I36 and in this manner the spacing between the rollers I22 and I23 is kept constant andat a predetermined distance. The amount of this spacing of course can be adjusted by pressure through the supply pipe I66 to hold the rollers I22 and I23 together. A solenoid operated valve I1.I (see Fig. 26) selectively controls the now of air through either the pipe I66or pipe I61. 7

' Operating against the end walls of the spreader rollers I22 and I23 are a pair of rotatable discs, onebeing disposed at each end of the pair of rollers"! 22 and I 23. Each of these rotatable-discs I15 is mounted on a shaft I16 that is supported in a bearing I11. Each bearing is secured to the corresponding spaced walls I24 by bolts or the like I18 as shown in Fig. 13. The details of the rotatable discs I15 and their respective mountings and connections are identical and for this reason one only will be described.

,As best shown in Fig. 13 each of the discs comprises a back plate portion I19 to which is fastened by means of screws I80 a housing portion I 81 that is provided with peripheral sides I82 and an intermediate spiral shaped partition member I83. The sides I82 of the spiral partition I83 project inwardly in the housing I8I and engage the back plate portion I19. Sealing gaskets I84 rest between the back plate I19 and the sides I92 and the spiral wall portion I83. This spiral wall portion :83 together with the side wall I82 of the housing I8I cooperate to form a' spiral passage indicated in Fig. 12 at I85 that startsat approximately the center of the disc I15 and spirals about over the area of the disc terminating adjacent to the outer periphery of the disc close to the side wall I82. The back plate I19 is apertured at I86 (Fig. 13) to receive a pipe I81 that is threaded into the aperture I86. This pipe I81 serves as an inlet port for conducting a fluid into the spiral passage I85 in a manner to be described hereinafter. Formed integrally with the back plate I18 is a housing member I88 that provides a radial passage I89 that communicates with the outermost extremity of the spiral passage I85 at the position indicated at I90 and extends toward the central axis of the disc I15 to a position adjacent to the pipe I81 where it enters an annular chamber I9I. The housing member I88 is apertured at I92 (Fig. 13) to receive the shaft I16 that is mounted circumferentially about the pipe I81 providing an annular passage I93 therebetween. This annular passage I93 communicates with the chamber I9I and serves as an outlet port for conveying fluid from the radial passage I89 in a manner to be described hereinafter.

The bearing member I11 supports the shaft I18 on the wall I24 and comprises a sleeve I94 that isflanged at one end as indicated at I95. This sleeve I94 is mounted circumferentially about the shaft I16 and the flange I95 is apertured to receive a plurality of screws I96 that rigidly secure flange portion I95 to lugs I91 that project from the back plate I19. A sprocket wheel I98 is mounted on the sleeve I94 that is rigidly secured to the disc I 15 by means of the screws I96 that pass through apertures in the sprocket wheel I98. Likewise mounted on the-sleeve I94 are a pair of ball bearing race members I99 that are held in spaced apart relationship by sleeve 200 that surrounds the sleeve I94. Each ball bearing race member I99 is provided with a plurality of ball bearings 20I that operate between an inner rotating annular member 202 and an outer fixed annular member 203. Mounted on the outer fixed annular members 203 of the ball bearing race members I99 is a sleeve 204 that is provided with suitable flanges 295 to receive the screws or bolts I18 for attachment to the wall I24. The sleeve 204 at one end abuts against the sprocket wheel I93 and at the other end is closed by an end cap 209. A ring nut 201 is threaded onto the end of the sleeve I94 and against the adjacent ball bearing race member 203 so as to urge the race member firmly against the spacing sleeve 200 thereby holding together the bearing assembly. Suitable gaskets and the like are employed where needed. The shaft I16 projects to a position just beyond the end cap 206 of the bearing I11 and is provided on its free end with a coupling plate 208. This coupling plate 200 forms a part of a coupling member generally indicated at 209 shown in Figs. 7 and 13. A complementary coupling plate 2I0 is bolted to the first plate 208. The coupling plate 2I0 is aper- 8 tured to receive a stud shaft 2 I Ithat is threaded into place. This stud shaft 2II enters a rotary pressure joint generally indicated at 2I2 in Figs. '7 and 13.

The pressure joint 2I2 comprises a cylindrical housing portion 2I3 closed at its opposite ends by means of end caps 2 I4 and 2I5 that are bolted in place as at 2I6. The stud shaft 2 I I terminates within the housing 2I3 and surrounding this shaft 2I3 is a pair of annular bearing members 2I1 and 2I8 that are fixed with respect to the stud shaft 2II. The bearing members 2I1 and 2 I8 are adapted to slide longitudinally along the stud shaft 2 and each is provided with a spherical bearing surface 2I9. A compression spring 220 is seated between cooperating shoulder portions 22I and 222 on the bearing members 2I1 and 2I8 respectively and is adapted to urge the bearing members 2I1 and 2I8 in opposite directions. A pair of sealing rings 223 and 224 are disposed against the bearing faces 2I9 of the bearing members 2I1 and 2I8 respectively. The ring 223 is held by the bearing member 2I1 against'the end wall 2I4 whereas the ring 224 is urged by the bearing member 2 I0 against an annular flange 225 that projects inwardly from the housing 2I3. The bearing member. 2I8 projects beyond the end of the stud shaft 2 and closely surrounds the pipe I81 that passes through the pressure joint 2I2 and terminates just short of the end cap 2I5. A bushing 226 is threaded into the free end of the bearing member 2| 8 against a gasket 221 that is urged against the bearing member 2I8. A look nut 228 may be provided to lock the bushing 228 in place.

As best shown in Fig. 13 the stud shaft 2II is spaced from the pipe I81 so as to provide an annular passage 229 that communicates with the passage I93. vA plurality of apertures or ports 230 are provided in the stud shaft 2II inside the housing 220 and complementary ports 23I are'provided in the bearing member 2I1 and are aligned with the ports 230. A chamber 232 surrounds the bearing member 2I1 and is in communication with the passage 229 through the ports 230 and 23I. An outlet pipe 233 is adapted to discharge fluid from the chamber 232 of the pressure joint 2I2.

The end cap 2I5 of the pressure joint 2I2 is spaced from the free end of pipe I81 so as to provide a chamber 234. Threaded into a central aperture in the end cap 2I5 is an inlet pipe 235. Chambers 234 and 232 are sealed apart from each other by means of the ring member 224that is constantly held under pressure between the bearing member 2I8 and the flange 225 by the compression spring 222. a

Thus has been described the disc I15 and its complete assembly. This disc I15 together with its shaft I16, the coupling 208, the stud shaft 2I I and the bearing members 2I1 and 2I8 are adapted to rotate whereas the housing 204 of the bearing I11 and the housing 2I3, including the ends walls 2I4 and '2I5, are stationary. Bearing members 2I1 and 2I8 rotate with their bearing surfaces 2I9 moving over the adjacent faces of the rings 223 and 224.

- Each of the discs I15 is adapted to be cooled or chilled by circulating therethrough a cooling fluid or liquid. This coolant is supplied through each inlet pipe 235 (see Figs. 7 and 13) and enters chamber 234 at the inlet end of the adjacent pressure joint 2I2 (Fig. 13). The coolant then passes through the pipe I81 to the center of the: disc I15 where it enters the .spiral passage I85. in the disc I15. The disc I15 is normally rotatedin themanner to bedescribed hereinafter-as. shown in the direction of the arrows of Fig. 12 so that the coolant enters the spiral passage" I85 and is confined by walls I83 to follow through the spiral passages to the outer periphery of the disc I15. The coolant then enters the radial passage I89 through port I98 and is forced through the. passage I89, into the chamber I9I and'then through the annular passage l93 in the shaft I16 into passage 229 in the stud shaft 2II., The coolant then is forced through ports 238 and 23I into the chamber 232 in the pressureijoint 2I2 and then leaves the pressure joint 2I2 through the outlet pipe 233.: This coolant as it-passes through the spiral passage I85 in each of thediscs- I16 chills the face of the disc I15.

The rollers l22 and I23 and the discs I15 are powered by a suitable motor or power unit 25I (see Fig. 7) that .is provided with a shaft 252 on the end of which is mounted a sprocket wheel 253. A rotatable shaft 254 is journalled in bearings 255 adjacent to its opposite ends that are mounted in some suitable manner on thewalls I24. Mounted at one end of the shaft 254 is a sprocket 256 that is powered by a sprocket chain 256 a operating about the sprocket wheel 2,53fon the motor shaft .252. A pair of sprocket wheels 2.51 likewise are mounted on the shaft- 254, one being adjacent to each end ofthe shaft 254. A sprocket wheel 258 is mounted adjacent to each end of the shaft I46 that carries the. roller I22 and a sprocket wheel 259.is mounted I adjacent to the opposite end of the shaft 146 that carries the roller I23. A sprocket chain 260 (Figs. '1 and 8) is mounted in driving relationship with the sprocket wheels 251, 259 and 259 as best shown in Fig. 8 so that the rollers I22 and. I23 are powered adjacent to each end'of their shafts, the power being received from the motor 25I. Mounted on the shaft I29 that supports the roller I23 at adjacent opposite ends of the roller are sprocket wheels 26 I, each of which is disposed in alignment with the corresponding sprocket'wheel I98 carried'by the shaft I16. As best shown in Fig. 8 a sprocket chain 262 operates about the sprocket wheels I98 and 261 so that the shaft carrying the discs I15 is'powered through suitable sprocket wheels and chain from the shaft carrying roller I23. I

Roller I22 as shown in Fig. 8 is caused to rotate in a clockwise direction, whereas roller I23 is rotated in a counterclockwise direction. Candy dough that comprises the nougat portion I96 (Fig. 1) of the candy bar'is thus moved downwardly between the rollers I22. and I23 and is pressed into a ribbon or sheet having a thickness corresponding to the distance between the rollers.

In order to prevent a sticking of the candy onto roller I22 a scraper device generally indicated'at 263 as best shown in Figs. 8 and 9 is provided. This scraper mechanism comprises a scraper blade 264 that is securely fastened at member being rigidly secured by means ofscrewsf or-the like 269 tothe adjacent arm I31. The blade 264 is thus adapted to pivot about the bearing member 261 in the stationary member 268. Each of the stationary members 268 is provided with a pair of ears 210 which together form abifurcated portion between which-ears a projection 21I on the bearing block 265 is disposed. Theears 218 are'spaced from each other a sufficient distance so that the projection 21I may have relative oscillating movement during the pivotal movement of the blade 264. An ,adjusting nut 212 (Fig; 8) forming a stop, projects through eachof the ears 216.

blade 264 withrespect tothe roller I22 and dur;- ing the operation of the machine it is desired that the upperedge of the blade 264 be disposed closely adjacent to the peripheral surface ofthe v roller I22 so: as to serve as a stripper thereby preventing the nougat dough from following the roller I22 beyond the position desired.

- The roller. I23 is likewiseprovided with a stripper mechanism generally indicated at 213 (seeFigs-B and 14). This stripper mechanism includes'an arm 214 having a handle 215 at one end. thereof. The arm 214.is fixed to the end of a shaft 216 that passes through the lower end of the .wall I24. This shaft 216 extends to the opposite wall I24 and is journalled therein. Fixed.

to the shaft .216 is a pair of spacedblade supporting arms, oneof which is shownat 211 in Fig. 14. The stripper blade is indicatedat 218 and at its opposite ends it is'secured'tothe lower ends. of arms 2'" bymeans of links 219. Each otthe'links 219 is pivoted as at 286.to,its re.- spective arm 211 and each link219 is provided witha projectionv 28I adjacent to its outer free end, to the. end of which projections is fastened The opposite end of thevides a cam surface as best shown in Fig. 8 at 288'. The projection 28I on each of the links 219is provided with an adjustable stop 289'that has a cam follower portion 296 adapted to ride on the cam surface 288. Thus in the position shown inFig. 8 the'blade 218' being constantly urged upwardly by the spring 282jis fixed in its position relative to the surface 288 by engagement-of the cam follower 290 on the cam stop 289 against the cam surface 288. In this manner, by adjustment of the stop blade 289, the blade 218 may beproperly located with respect to the peripheral surface of the roller I23. To withdraw the stripper blade I18 from the roller I23 the crank arm 214 may be rotated in a counterclockwise' direction (Fig. 8) thereby moving the cam follower member 298 along the cam surface 288. The stripper blade may be returned to the position shown in Fig. 8 by merely-revere These nuts212i can be adjusted so. as to fix the position'of the ing the operation by turning thecrank arm 214 in a clockwise direction;

. .A thin film of some suitable Vegetable oil.is spread on the cylindrical surfaces of rollers I22 and I23 in order to' prevent the nougat dough from sticking to the rollers. To accomplish this an oil spray device generally indicated at 291 is provided for each roller. The-two spray devices 29! are identical and for present purposes one only will be described in detail. Each of such device comprises a casing 292 that is disposed closely adjacent to its respective peripheral surface of the roller I22 or I23 and extends parallel with respect to the cylindrical surface of the roller. Thecasing 292 is supported in apertures 293 in the spaced walls I24. Mounted in the casing 292 is an oil spray pipe '294 that is disposed on the side of the casing 292- close to the adjacent roller I22 or I23. This oil spray pipe 294 extends throughout/the length of thecas'ing 292 and projects beyond each end thereof as best shown in Fig. 7. casing 292 is an oil supply drum 295 that is mounted as shown in Fig. 6 on a pedestal 296. In the lower portion of the oil spray drum 295 may be located a heater element in the region indicated at 291, the details of the heater element not being shown inasmuch as they form no part of the present invention. On the top of each oil drum 295 is a riser 298 that communicates with the interior of the drum. An ejector generally indicated at 299 is mounted on the top of the riser 298 and the 'pipe 294 (Fig. 7) is connected to one side of the ejector 299. The other side of the ejector 299 is attached to an air supply line 399 that receives air from a compressor (not shown), the flow of air being regulated by a valve indicated at 30L As indicated in Fig. 8 the oil supply pipe 294 is provided with a longitudinally extending slit 392 that is disposed adjacent to the 'roller I22 or 123, as the case may be, and the length of this slit corresponds with the length of the roller.' The casing 292 is likewise provided with a slit 393 that is aligned with the slit 392. Thus air from the supply line 399 is moved through the ejector 299 into the oil supply pipe 294, this air carrying with it a supply of heated oil from the oil supply tank 295.

The oilthus conveyed is in the form of a mist I or cloud and is under pressure so that when it reaches the longitudinal slit 392 in the region adjacent the roller I22 or I23 the cloud or mist of oil is spread'upon the cylindrical surface of the adjacent roller. As illustrated in Fig. '7 the oil is introduced through both ends of each supply ipe 294 so that the distribution of oil on the rollers I22 and I23 is substantiall uniform throughout the extent of the surface of each roller. The oil tank 295 is supplied with oil from reservoir 395 through pipe 395.

A heating filament 394 may be mounted in the casing 292 closely adjacent to the oil supply pipe 294 in the region of the slit 392 so as to maintain the proper temperature of the oil that is being sprayed upon the surface of each of the rollers I22 and I23.

The conveyor 107 The conveyor I91 is best shown in Figs. 6 and 15 to 25 inclusive. As diagrammatically shown in Figs. 2 and 3 the conveyor I91 comprises gen erally a conveyor belt 325 that operates about a pair of spaced drums or rollers 326 and 321. As shown in Figs. 6 and 15 to 17 inclusive the drum Adjacent to each end of the or roller 326 is mounted on a shaft 328 that is journalled in bearings 329. The bearing 329 is mounted on a horizontal plate 339 (see Fig. 17), the bearing being fixed to this plate by means of screws, one of which is illustrated at 33I. Plate 339 is slidably mounted on a plate 332, the latter of which is rigidly secured to a channel member 333 by means of bolts 334. This channel member 333 is supported on a structure including vertical uprights 335 (see Figs. 6 and 15) which extend upwardly from the floor. Plates 336 and 331 are fixed to the opposite faces respectively of the channel333 by means of bolts 333 and 339 (see Figs. 6, 15 and 1'1). Both of the plates 336 and 331 project upwardly above the channel member 333 so as to abut the sides of plates 339 and 332 thus serving as guides within which the plate 330 slides on plate 332. A hold-down block 349 fixed at 34I to the upper edge of plate 336 rests against the top face of plate 339 so as to hold this plate 339 downwardly against plate 332. Each of the bearing members 329 rests against an upstanding plate 342 that is secured by means of screws 343 to plate 339. The shaft 328 is adapted to rotate in the bearing members 329.

As best shown in Figs. 6 and 15 each of the plates 342 projects beyond the corresponding vertica1 plate 336 and an angle member 344 forms a transverse framing member that connects the two spaced plates 342 adjacent to the free ends thereof. An angle member 345 connects the opposite ends of the spaced plates 342. A sprocket wheel 349 is journalled in the free end of each of the plates 342. .Mounted on one of the upstanding framing members 335 are a pair of spaced brackets 341, one of which is aligned with each of the ratchet wheels 345. A sprocket wheel 348 is rotatably mounted in each of the brackets 341. A sprocket chain 349 having one end fixed with respect to the sprocket wheel 346' operates about the sprocket wheels 346 and 348 as shown in the drawings and is provided with a weight 359 suspended from the free end of each of the sprocket chains 349. In this manner a mechanical advantage is provided through the system of sprocket wheels 346 and 348 and the sprocket chain 349 'so as to exert a suitable pulling force on the plates 342 thereby maintaining the belt 325 in ataut condition. This is accomplished by virtue of the fact that the plate 339 (Fig. 17) that is fixed to the corresponding plate 342 is slidable on plate 332.

As shown in Figs. 18 and 19 the opposite end of i the belt 325 passes over the drum or roller 321.

This drum 321 is mounted on a shaft 35l which in turn is journalled in a pair of spaced bearings 352. These bearings 352 are mounted on a suitable framework 353. The shaft 35I is rotated by a suitable motor drive that includes a chain (Fig. 19) operating about a sprocket wheel A framework is provided for supporting the length of the conveyor belt 325 and comprises a plurality of spaced upright posts 356 that are disposed along the length of the belt adjacent to each side thereof. Longitudinal channel like framing members 351 (see Figs. 15 and 21) are fixed to the upper ends of the posts 356 and cross framing members 358 connect the spaced longitudinal channel members 351' and are spaced lengthwise thereof. A plurality of longitudinal supporting stringers 359 are mounted on the cross framing members 358 and extend substantially games 13 throughoutthelengthof 'the-- belt 325: These stringers 359' are spacedtransversely with respect to the belt 325 and form afloor-or table surface upon which the-belt rides in its travel from a position adjacentto the uppermost extremity of the-roller 326 to a po'sitionadjacent to the uppermost extremity of the roller-.321.

Again referring to Figs. 15 -and16mounted on the top of the left hand -uprights=335 -is=a=platform 369' upon which is fixed a plate 361 thatis' provided with a pair of spaced, parallel raised guide ribs 362. Slidably-mounted between the spaced guide ribs 362 is a-bearingmember 363- that is bifurcated so as to provide upper and lower jaws 364 (Fig. l for receiving a vertical shaft 365. A roller 366.is' rotatablymounted on the shaft 365. On the otherend of the'bearin'g member 363 is rotatably mounted a sprocket A bracket 3681s mounted on the left hand upright 335 in alignmentwi-th-each 0f thewheel361.

sprocket wheels 33'! and a shaft 369*is journalled in'each of the brackets-368. Sprocketwheels 319-are mounted on the shaft 369- in' alignment with the corresponding sprocket wheels 361 and asprocket chain 31! fi-Xedatone end as 3.1;;312 operates about each set of sprocket Wheels '361,

319; and suspended ,from the free ends of the sprocket chains 31! are a plurality of weights 313. Thus a constant pullingiorce is applied on the bearing member 363 so'astourge the roller 366 in a direction towardythelefthand end of the structure shown inFigflfi'.

Apair'of upstanding columns 314 (Figs. 18' and l9)is mounted on the iramework3531that is dis posed on the opposite end 0f'the':c0nyeyor and jou'rnalled, in each of the .columns 314 isa verti-. cal shaft 315 on the end of 'which'ismounted'a roller 319. Thus it is noted that a pair of rollers 366.and..316' is disposed'on each .sideof lthe con-V veyor structure and a side belt-3.11" operates around each. air of such rollers. These side belts 311 are disposed vertically so. asto provide upstanding sides .to the horizontalbeltconveyor 325 as bestshown in'Fig. 21.

The lower end of each of'the verticallshafts 316 atarate of travel correspondingr to thetravel rate of the conveyor belt 325. The outer:

portion ofeach side belt 311 travels from-the roller 316 to-roller 366, being guided by horizontal and: vertical return guide roller mem hers-389 and 399- respectively (Figs. 18 and 19 315:(Figs. 18 and19) is provided with a bevelled 1 gear 318' that meshes with a corresponding.

bevelled gear. 319 mounted'on a horizontal shaft 389 that is journall'ed in the supporting. structure 3532 Mounted on one end of thehorizontal shaft 389 is a sprocket wheel indicated at.38l about which operates a sprocket chain 382 that is. powered'fromth'e' end of shaft .351 througha.

driven sprocket wheel 383.

The side belts 31Textend substantially through.-

out the .full length of the conveyonbelt,325.-.andfv each side belt is guided by a plurality. at suitable rollers 384 that are spaced throughout the length of the conveyor. Each of the; rollers- 384- V is. mounted on a shaft 385 that is supported onthe longitudinal channel members 351, and engages thetop edge of the-corresponding sider;belt-311 so as to maintain the-. 'bel-t .in uprighi'wpositionv and hold the belt firmlyagainsttheconveyor belt" 325.- A backing roller 3891s provided at .one; end

ofeach side belt 311 (Figs; 1'5I1and-16). Each-of the backing rollers 385 is. mountedon-a'shaftf331 that is j'ournalled; in a. bracket 381a. extending; upwardly from the longitudinal channel members- 351'. At the opposite end'of each sideb'elt 311' is' an upright bar 368' that serves as-a guide for the belt. v

Each side belt 311 is an endless beltwhose inner portion travels from roller 366 to -roller Similarlythe conveyor belt-325 is an endless belt thathas-a returning portion disposed be lowthe stringers 359 as best shown inFig. 18.:

In order toprevent the nougat from stick--- ing to the conveyor belt 325 and the side belts-- 311 athin film of oil is applied to each offlthese belts and the belts are thoroughly washed and dried continuously during operation of the conveyor so that any particles of candy sticking toany of" the belts are removed before the.

oil is applied.

As best shown in Figs. 6 and 20 an'oil spraydevice generally indicated at 3!" is providedto spray-the film of oil on the conveyor belt 325.

This sprayer device 39! comprises generally a plurality of nozzles 392 (Fig. 20) eachof which is supplied with air and vegetable oil through pipes 393 and 394 respectively. Pipe 394 isfed" The nozzles from oil reservoir 395 (see Fig. 6). 392 are mounted in a hood device 396 that comprises inner: directing walls 391 that terminate closely; adjacent to the: belt 325- (Fig.v 20), and outerwalls 398, which together with the-inner walls- 391, form an annular exhaust chamber 399. An exhaust duct 499 communicates with the annular exhaust chamber 399 and leads to" the intake side of an exhaust blower 491. The

nozzles 392 thus spray evenly in the form of a fine mist a vegetable oil on the conveying surface of the conveyor belt 325 and the excess oil is exhausted through the duct 499- by means-of the exhaust blower 491.

At the opposite end of the conveyor belt assembly is provided'washing equipment for the" conveyonb'elt 325 and'the side belts 311 (see Figs. :ISiand' 4 19). The washing equipment for the conveyor belt=325-is enclosed in'a housing 492 as best'shown in- Figs; 18, 19, 2'1, -23 and 24". This housing 492 includes a pair of spaced end walls 493 and 494 (Fig. 24), whichwalls are.

aperture'd' to receive the conveyor belt 325that passes in a direction from wall 4931to wall 494; The housing 492 is dividedintofa pair-ofcham: b'ers'--'405 and 496 by a baffle or wall 491 that extends .downwardly from an upper wall 498 of the housing 492. andterminatesfshort of the.

bottom. wall 499 of the housing. The upper wall 498 may beremovable so as. to form acover fonthehousing 492 butis preferably sealed in place .bya gasket (not shown) so that'the'housing492- is substantially water-tight. A- screen 419 .is..slidably mounted in side brackets 4H an forms the lower wall of chamber 495.

As bestshown inJFigs. 21 and.24 a pairofr vertically spaced water pipes 4| 2 aresupported 'inthechamber' 495 in such a manner thatthe conveyor belt 325 is. adapted to pass substantially; midway between the spaced pipes 4|2. A-pluralityofjets or nozzles 4| 3 are disposed alongeach of thepipes 442. Thosenozzles-4l3 carried". by theupperwater pipe 4|2 are directed downwardly and the nozzles-4| 3 connected to thelower water pipe 4I2are directed upwardly so that as illustrated in Fig. 21 sprays ofwater can be directed by nozzles H3 against the upper and lower faces of the conveyor-belt 325.. It is noted thatit is the return p ortionfof the.

conveyorbelt325 that passes through'the hous- 

